modeling vegetation dynamics with lpj-guess
DESCRIPTION
Modeling Vegetation Dynamics with LPJ-GUESS. Katie Ireland, Andy Hansen, and Ben Poulter. Stand to Global Scale Modeling Approaches. Stand-scale models Gap (i.e., ZELIG ) Growth-Yield (i.e. FVS). Landscape models Mechanistic - (FireBGCv2) Deterministic – (SIMMPLE). Global Models - PowerPoint PPT PresentationTRANSCRIPT
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KATIE IRELAND, ANDY HANSEN, AND BEN POULTER
Modeling Vegetation Dynamics with LPJ-GUESS
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Stand to Global Scale Modeling Approaches
Stand-scale models
Gap (i.e., ZELIG )Growth-Yield (i.e.
FVS)Landscape models
Mechanistic - (FireBGCv2)
Deterministic – (SIMMPLE)
Global ModelsDGVMS – (MAPSS)
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Need for Management at Large Spatial Scales
FireInsectsDiseaseClimate changeLand-use change
Need ecosystem-scale science, management
Hansen et al. 2011. Bioscience 61:363-373
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What do we mean by “ecosystem-scale”?
Cross management boundaries Ecological flows Crucial habitat Effective size Human edge
effects
Range of sizes ~5500 – 143,000
km2 contiguous habitat
Hansen et al. 2011. Bioscience 61:363-373
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Stand to Global Scale Modeling Approaches
Stand-scale models
Gap (i.e., ZELIG )Growth-Yield (i.e.
FVS)Landscape models
Mechanistic - (FireBGCv2)
Deterministic – (SIMMPLE)
Global ModelsDGVMS – (MAPSS)
Ecosystem-scale models
LPJ-GUESS
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Desired Model Characteristics
For modeling vegetation dynamics at greater ecosystem scales:
Capable of simulating individual species/communities
Links climate with ecosystem processes
Simulates disturbance
Large spatial scale Ex. Yellowstone & Grand Teton Ecosystem ~42,500 km2
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LPJ-GUESS Overview
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InputsClimate data: monthly temp., precip., shortwave radiation,
CO2
Soil data: soil texture
Vegetation: PFT/species, bioclimatic limits,
ecophysiological parametersOutputs
Vegetation typesBiomass
Carbon storageC & H20 fluxes
NPP, NEEFire-induced mortality
CO2, etc. emissionsFuel consumption
LPJ-GUESS
PhotosynthesisRespirationAllocation
Establishment, growth, mortality,
decomposition
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LPJ-DVM: “Population Mode”
GUESS:“Individual/Cohort Mode”
PFTs
Simplistic veg. Dynamics
No cohorts
Coarse
PFTs or species
‘Gap’ veg dynamics
Cohorts
Fine
Vegetation Dynamics in LPJ-GUESS
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Bioclimatic Niche
Each PFT assigned bioclimatic limits Survive prevailing climatic conditions
Variables Tcmin – min. coldest month temperature, survival Tcmax – max. coldest month temperature, establishment GDDmin – min. GDD sum (5oC), establishment Tw-c,min – min. warmest – coldest month temperature
range
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Fire Dynamics – SPITFIRE model
ClimateTemp, precip, radiation,
CO2LPJ-GUESSVegetation
pattern Vegetation (type, crown height, length,
DBH)Litter
(size, moisture, distribution)
Plant mortality/damage
Wind(speed, direction)
EmissionsCO2, CO, CH4, NOx
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Comparisons: LPJ-GUESS, BIOME-BGC, FireBGCv2
BIOME-BGC FireBGCv2 LPJ-GUESSSpatial Scale Stand to global Landscape Stand to globalVegetation Representation
Biomes(static)
Individual tree(dynamic)
PFTs or species cohorts(dynamic)
Input Variables Daily climate,ecophysiological parameters
Daily climate, site variables, ecophysiological parameters
Monthly climate, soil texture, ecophysiological parameters
Output Variables
C, N, and H2O fluxes
C, N, H2O, vegetation, fire
C, H2O fluxes, vegetation, fire
Disturbance Fire Fire, insects, disease
Fire
Spatially interactive
No Yes No
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LPJ-GUESS & PNV Shifts in Europe
By 2085: NCAR-PCM: 31% in
different PNV HadCM3: 42% in
different PNV Forest replaces tundra Broad-leaved temperate
forest expands northward
Mediterranean forest shifts to shrubland
Hickler et al. 2012 Global Ecology & Biogeography 21: 50-63
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Pros Cons
Capable of simulating individual species
Species dynamicLarge-scale
applicationsLinks climate to
vegetation change
Lack of spatial interactions Dispersal Disturbance
Parameters for North American tree species
Stochastic establishment/mortality Computationally intensive
LPJ-GUESS for Ecosystem-scale Modeling?